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Article: Microscale flow bifurcation and its macroscale implications in periodic porous media

TitleMicroscale flow bifurcation and its macroscale implications in periodic porous media
Authors
Issue Date2000
PublisherSpringer Verlag. The Journal's web site is located at http://link.springer.de/link/service/journals/00466/index.htm
Citation
Computational Mechanics, 2000, v. 26 n. 6, p. 520-527 How to Cite?
AbstractFinite volume/Euler-Newton continuation is made to study the microscale flow bifurcation and its macroscale implications in modeled 2D spatially-periodic porous media. The microscale flow bifurcation can occur if the inlet flow direction is isotropic with respect to two orthogonal principle axes. As the inlet flow rate increases, two asymmetric solution branches bifurcate from the primary symmetric (with respect to the inlet flow direction) branch through a symmetric-breaking bifurcation point. The location of this bifurcation point changes as the porosity of media. Such microscale flow bifurcation is preserved at macroscale. However, it has no effect on the Euler number-Reynolds number relation, further confirming the finding by Wang (2000) [1] that the Reynolds number is not a proper scalar characterizing the effect of microscale convective inertia.
Persistent Identifierhttp://hdl.handle.net/10722/75641
ISSN
2023 Impact Factor: 3.7
2023 SCImago Journal Rankings: 1.265
ISI Accession Number ID
References

 

DC FieldValueLanguage
dc.contributor.authorYang, Ten_HK
dc.contributor.authorWang, Len_HK
dc.date.accessioned2010-09-06T07:13:09Z-
dc.date.available2010-09-06T07:13:09Z-
dc.date.issued2000en_HK
dc.identifier.citationComputational Mechanics, 2000, v. 26 n. 6, p. 520-527en_HK
dc.identifier.issn0178-7675en_HK
dc.identifier.urihttp://hdl.handle.net/10722/75641-
dc.description.abstractFinite volume/Euler-Newton continuation is made to study the microscale flow bifurcation and its macroscale implications in modeled 2D spatially-periodic porous media. The microscale flow bifurcation can occur if the inlet flow direction is isotropic with respect to two orthogonal principle axes. As the inlet flow rate increases, two asymmetric solution branches bifurcate from the primary symmetric (with respect to the inlet flow direction) branch through a symmetric-breaking bifurcation point. The location of this bifurcation point changes as the porosity of media. Such microscale flow bifurcation is preserved at macroscale. However, it has no effect on the Euler number-Reynolds number relation, further confirming the finding by Wang (2000) [1] that the Reynolds number is not a proper scalar characterizing the effect of microscale convective inertia.en_HK
dc.languageengen_HK
dc.publisherSpringer Verlag. The Journal's web site is located at http://link.springer.de/link/service/journals/00466/index.htmen_HK
dc.relation.ispartofComputational Mechanicsen_HK
dc.titleMicroscale flow bifurcation and its macroscale implications in periodic porous mediaen_HK
dc.typeArticleen_HK
dc.identifier.openurlhttp://library.hku.hk:4550/resserv?sid=HKU:IR&issn=0178-7675&volume=26&spage=520&epage=527&date=2000&atitle=Microscale+flow+bifurcation+and+its+macroscale+implications+in+periodic+porous+mediaen_HK
dc.identifier.emailWang, L:lqwang@hkucc.hku.hken_HK
dc.identifier.authorityWang, L=rp00184en_HK
dc.description.naturelink_to_subscribed_fulltext-
dc.identifier.doi10.1007/s004660000201en_HK
dc.identifier.scopuseid_2-s2.0-0034478674en_HK
dc.identifier.hkuros62959en_HK
dc.relation.referenceshttp://www.scopus.com/mlt/select.url?eid=2-s2.0-0034478674&selection=ref&src=s&origin=recordpageen_HK
dc.identifier.volume26en_HK
dc.identifier.issue6en_HK
dc.identifier.spage520en_HK
dc.identifier.epage527en_HK
dc.identifier.isiWOS:000166226500003-
dc.publisher.placeGermanyen_HK
dc.identifier.scopusauthoridYang, T=7404655973en_HK
dc.identifier.scopusauthoridWang, L=35235288500en_HK
dc.identifier.issnl0178-7675-

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